A webbing-buckling device of a multi-point seat belt system has a buckle assembly and a tongue assembly. The buckle assembly has a buckle base having a first frame portion and a webbing-locking member slidably inserted through the first frame portion. The tongue assembly is disposed on the buckle assembly and has a tongue base having a second frame portion and a webbing-fixing member slidably inserted through the second frame portion. One of two webbings is inserted between the first frame portion and the webbing-locking member, and the other webbing is inserted between the second frame portion and the webbing-fixing member. Alternatively, the webbing-buckling device has a buckle assembly and two tongue assemblies disposed on the buckle assembly. Each tongue assembly has a tongue base having a second frame portion and a webbing-fixing member inserted through the second frame portion. The webbings are inserted through the tongue assemblies.
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1. A webbing-buckling device of a multi-point seat belt system applied to connect to two webbings of the multi-point seat belt system, the webbing-buckling device comprising:
a buckle assembly having
a buckle base made of a rigid material and having a body and a first frame portion, the first frame portion formed on an end of the body and having a first through hole formed through the first frame portion;
a locking assembly disposed on the body of the buckle base and having a locking mechanism, a pressing member, and a tongue slot, the locking mechanism disposed on the body of the buckle base, the pressing member disposed on the locking mechanism, and the tongue slot formed on an end of the locking assembly opposite to the first frame portion, wherein the pressing member selectively drives the locking mechanism to change to an unlocked state; and
a webbing-locking member inserted through the first through hole of the first frame portion of the buckle base, wherein the webbing-locking member is able to move relative to the first frame portion for locking one of the two webbings; and
a tongue assembly detachably disposed on the buckle assembly and having
a tongue base made of a rigid material and having a tongue portion and a second frame portion, the second frame portion formed on an end of the tongue portion and having a second through hole formed through the second frame portion; and
a webbing-fixing member inserted through the second through hole of the second frame portion of the tongue base, wherein the webbing-fixing member is able to move relative to the second frame portion for locking the other one of the two webbings, the tongue portion of the tongue base of the tongue assembly is selectively inserted into the tongue slot of the locking assembly of the buckle assembly for locking.
2. The webbing-buckling device of the multi-point seat belt system as claimed in
each one of the webbing-locking member and the webbing-fixing member has
a first side plate portion;
a second side plate portion being opposite to the first side plate portion at a spaced interval, wherein the first side plate portion and the second side plate portion have a height difference; and
a through portion located between the first side plate portion and the second side plate portion and having
a through groove downwardly and inclinedly extending from the first side plate portion to the second side plate portion and having two side edges; and
two walls respectively located at the two side edges of the through groove and both connected to the first side plate portion and the second side plate portion, wherein each one of the two walls has an outer surface and a slide groove formed on the outer surface, extending longitudinally, and located between the first side plate portion and the second side plate portion, the first side plate portion has a top edge and a flange, and the flange is formed on and protrudes from the top edge of the first side plate portion;
the first frame portion of the buckle base has two first sides formed on two ends of the first through hole respectively, the through portion of the webbing-locking member is inserted through the first through hole of the first frame portion, the first side plate portion and the second side plate portion of the webbing-locking member are respectively located at two opposite sides of the first frame portion, the two first sides of the first frame portion are respectively inserted into the slide grooves of the two walls in the webbing-locking member, the through portion of the webbing-locking member is limited by the first through hole of the first frame portion, and the webbing-locking member is able to slide in the first frame portion; and
the second frame portion of the tongue base has two second sides formed on two ends of the second through hole respectively, the through portion of the webbing-fixing member is inserted through the second through hole of the second frame portion, the first side plate portion and the second side plate portion of the webbing-fixing member are respectively located at two opposite sides of the second frame portion, the two second sides of the second frame portion are respectively inserted into the slide grooves of the two walls in the webbing-fixing member, the through portion of the webbing-fixing member is limited by the second through hole of the second frame portion, and the webbing-fixing member is able to slide in the second frame portion.
3. The webbing-buckling device of the multi-point seat belt system as claimed in
the buckle assembly has an outer shell, and the outer shell of the buckle assembly covers the body of the buckle base and the locking mechanism of the locking assembly; and
the tongue assembly has a tongue shell, and the tongue shell of the tongue assembly covers the tongue base.
4. The webbing-buckling device of the multi-point seat belt system as claimed in
the buckle base of the buckle assembly has a first connecting portion, and the first connecting portion is formed below the first frame portion and has a first connecting hole formed through the first connecting portion; and
the tongue base of the tongue assembly has a second connecting portion, and the second connecting portion is formed below the second frame portion and has a second connecting hole formed through the second connecting portion.
5. The webbing-buckling device of the multi-point seat belt system as claimed in
the buckle base of the buckle assembly has a first connecting portion, and the first connecting portion is formed below the first frame portion and has a first connecting hole formed through the first connecting portion; and
the tongue base of the tongue assembly has a second connecting portion, and the second connecting portion is formed below the second frame portion and has a second connecting hole formed through the second connecting portion.
6. The webbing-buckling device of the multi-point seat belt system as claimed in
the buckle assembly has an outer shell, and the outer shell of the buckle assembly covers the body of the buckle base and the locking mechanism of the locking assembly; and
the tongue assembly has a tongue shell, and the tongue shell of the tongue assembly covers the tongue base.
7. The webbing-buckling device of the multi-point seat belt system as claimed in
the buckle assembly has an outer shell, and the outer shell of the buckle assembly covers the body of the buckle base and the locking mechanism of the locking assembly; and
the tongue assembly has a tongue shell, and the tongue shell of the tongue assembly covers the tongue base.
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This application claims the benefit of Taiwan patent application No. 107131139, filed on Sep. 5, 2018, the entire contents of which are incorporated herein by reference.
The present invention relates to a webbing-buckling device of a multi-point seat belt system, and more particularly to a webbing-buckling device that is applied to a seat for various vehicles to provide multiple fixing points.
Based on high security requirements for various vehicles such as sport utility vehicles, racing cars or tanks, a seat belt system disposed on a vehicle seat may be a multi-point seat belt system, including a four-point type, a five-point type, a six-point type, or a seven-point type. Every occupant in a vehicle can be simultaneously limited by distributed fixing points for being fastened steadily on a seat in the vehicle. When an external force is applied to the vehicle, the occupant can be secured on the seat with a sufficient protective effect.
In a conventional multi-point seat belt system including the four-point type, the five-point type, the six-point type, or the seven-point type, independent webbings are integratedly connected to a buckle assembly, multiple tongues, or a tongue assembly by sewing. Connecting relationships between the webbings and the buckle assembly, the tongues, or the tongue assembly are in a fixed state. The conventional multi-point seat belt system cannot adjust webbing lengths to fasten the occupants of different body shapes easily. The conventional multi-point seat belt system further need several adjustment members disposed on the webbings to adjust webbing lengths for occupants of different sizes. The occupants can be secured on the seat for protection and security.
In use, a webbing-buckling device of the conventional multi-point seat belt system is pushed to a position located about a pelvic center of the occupant. The adjustment members are respectively used to adjust the length of each independent webbing. The operation of the webbing-buckling device of the conventional multi-point seat belt system is inconvenient and time-consuming.
For overcoming the problems as described about the webbing-buckling device of the conventional multi-point seat belt system, the applicant has proposed a multi-point seat belt system for solving the problems as described about the webbing-buckling device of the conventional multi-point seat belt system. The multi-point seat belt system proposed by the applicant has a buckling set, two webbing-locking mechanism, at least one retractor, and two webbings. The buckling set has a buckle assembly and at least one tongue. The at least one tongue is detachably inserted into the buckle assembly. The two webbing-locking mechanisms are respectively connected to the at least one tongue and the buckle assembly, or the two webbing-locking mechanisms are connected to the at least one tongue. The two webbings are inserted into the two webbing-locking mechanisms. An end of each one of the two webbings is connected to a corresponding retractor. Another end of each one of the two webbings is fixed on a side of a seat. When the seat belt system is correctly locked, an inclining locking mechanism disposed in each one of the retractors is locked, or the retractors are locked due to emergency deceleration or brake, the webbings are unidirectionally locked by the webbing-locking mechanism due to the change of the tension of the webbings. The webbings fastened on the occupant are tighter and tighter for restricting the occupant on the seat and increasing the security of the occupant on the seat.
After proposing the multi-point seat belt system, the applicant has been continuously doing researches on the multi-point seat belt system. In a combined structure with the buckling set and the webbing-locking mechanism, a moving member of the webbing-locking mechanism is disposed around a connecting member of the webbing-locking mechanism. A limiting protrusion of the moving member is inserted into a through hole of the connecting member. The multi-point seat belt system proposed by the applicant has some defects, such as complex structure and high manufacturing difficulty. Thus, it is necessary to improve the multi-point seat belt system for increasing the product competitiveness.
To overcome the shortcomings, the present invention provides a webbing-buckling device of a multi-point seat belt system to mitigate or obviate the aforementioned problems.
The objective of the invention is to provide a webbing-buckling device of a multi-point seat belt system that can solve the problems of the conventional multi-point seat belt system including complex structure and high manufacturing difficulty.
The webbing-buckling device of a multi-point seat belt system is applied to connect to two webbings of the multi-point seat belt system. The webbing-buckling device has a buckle assembly and a tongue assembly.
The buckle assembly has a buckle base, a locking assembly, and a webbing-locking member. The buckle base is made of a rigid material and has a body and a first frame portion. The first frame portion is formed on an end of the body and has a first through hole formed through the first frame portion. The locking assembly is disposed on the body of the buckle base and has a locking mechanism, a pressing member, and a tongue slot. The locking mechanism is disposed on the body of the buckle base. The pressing member is disposed on the locking mechanism. The tongue slot is formed on an end of the locking assembly opposite to the first frame portion. The pressing member selectively drives the locking mechanism to change to an unlocked state. The webbing-locking member is inserted through the first through hole of the first frame portion of the buckle base. The webbing-locking member is able to move relative to the first frame portion for locking one of the two webbings.
The tongue assembly is detachably disposed on the buckle assembly and has a tongue base and a webbing-fixing member. The tongue base is made of a rigid material and has a tongue portion and a second frame portion. The second frame portion is formed on an end of the tongue portion and has a second through hole formed through the second frame portion. The webbing-fixing member is inserted through the second through hole of the second frame portion of the tongue base. The webbing-fixing member is able to move relative to the second frame portion for locking the other one of the two webbings. The tongue portion of the tongue base of the tongue assembly is selectively inserted into the tongue slot of the locking assembly of the buckle assembly for locking.
Alternatively, the webbing-buckling device of a multi-point seat belt system is applied to connect to two webbings of the multi-point seat belt system. The webbing-buckling device has a buckle assembly and two tongue assemblies.
The buckle assembly has a central shell, two tongue slots, a webbing-connecting portion, and a locking assembly. The central shell has two opposite sides and a bottom. The two tongue slots are respectively formed through the two opposite sides of the central shell. The webbing-connecting portion is disposed on the bottom of the central shell. The locking assembly is disposed in the central shell and has a locking mechanism and a pressing member. The locking mechanism is disposed in the central shell. The pressing member is disposed on the locking mechanism. The pressing member selectively drives the locking mechanism to change to an unlocked state.
The two tongue assemblies are detachably disposed on the buckle assembly. Each one of the two tongue assemblies has a tongue base and a webbing-fixing member. The tongue base is made of a rigid material and has a tongue portion and a second frame portion. The second frame portion is formed on an end of the tongue portion and has a second through hole formed through the second frame portion. The webbing-fixing member is inserted through the second through hole of the second frame portion of the tongue base. The webbing-fixing member is able to move relative to the second frame portion.
The two tongue assemblies are able to lock the two webbings respectively. The tongue portions of the tongue bases of the two tongue assemblies are respectively and selectively inserted into the tongue slots of the buckle assembly for locking simultaneously.
The webbing-buckling device is applied to the multi-point seat belt system on a seat of a vehicle. The webbing-buckling device is selectively connected to the two webbings of the multi-point seat belt system. When the webbing-buckling device has one buckle assembly and one tongue assembly, the webbing-locking member is slidably inserted into the first frame portion of the buckle base. The webbing-fixing member is slidably inserted into the second frame portion of the tongue base. One of the two webbings is inserted between the first frame portion of the buckle assembly and the webbing-locking member. The other one of the two webbings is inserted between the second frame portion of the tongue assembly and the webbing-fixing member. The one buckle assembly and the one tongue assembly are connected between the two webbings.
When the webbing-buckling device has one buckle assembly and two tongue assemblies, the webbing-fixing member is inserted through the second frame portion in each one of the two tongue assemblies. The two webbings are respectively inserted through the two tongue assemblies having the webbing-fixing member. The one buckle assembly and the two tongue assemblies are connected between the two webbings. Therefore, the webbing-buckling device is applied between the two webbings of the multi-point seat belt system for providing effects on connecting, height adjusting, and locking.
Furthermore, when the webbing-buckling device is combined by the buckle assembly and the tongue assembly, structure of the webbing-locking member of the buckle assembly and structure of the webbing-fixing member of the tongue assembly are simplified. A first side plate portion and a second side plate portion of the webbing-locking member are respectively located at two opposite sides of the first frame portion. The webbing-locking member is able to slide in the first frame portion. A first side plate portion and a second side plate portion of the webbing-fixing member are respectively located at two opposite sides of the second frame portion. The webbing-fixing member is able to slide in the second frame portion.
Alternatively, the webbing-buckling device is combined by the buckle assembly and the two tongue assemblies. Structures of the webbing-fixing members of the two tongue assemblies are simplified. A first side plate portion and a second side plate portion of each one of the webbing-fixing members are respectively located at two opposite sides of a corresponding second frame portion. Structure of the webbing-buckling device is simplified for ease in manufacturing.
Furthermore, the webbing-buckling device of the multi-point seat belt system is connected to the two webbings of the multi-point seat belt system. When the webbing-buckling device is combined by the buckle assembly and the tongue assembly, a relative position between the webbing-locking member and the first frame portion can be changed by tension of the webbing for locking the webbings unidirectionally and respectively.
When the webbing-buckling device is combined by the buckle assembly and the two tongue assemblies, in each one of the two tongue assemblies, a relative position of the webbing-fixing member and the second frame portion can be changed by tension of the webbing for locking the corresponding webbing unidirectionally and respectively.
A relative position between the webbing-locking member and the first frame portion can be changed. A relative position between the webbing-fixing member and the second frame portion can be changed. Thus, a height of the webbing-locking member relative to a corresponding webbing and a height of the webbing-fixing member relative to the corresponding webbing can be adjusted.
In addition, the two webbings are locked on the webbing-buckling device by the tensions of the two webbings. The webbings fastened on an occupant are tighter and tighter for restricting the occupant on the seat and increasing the security of the occupant on the seat.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
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The multi-point seat belt system has one retractor 4 disposed below the seat back of the seat and connected to a Y-shaped webbing member. Two webbings 2A, 2B of the Y-shaped webbing member are respectively inserted through the buckle assembly 10A and the tongue assembly 20A of the webbing-buckling device 1A. Distal ends of the two webbings 2A, 2B are respectively connected to two fixing members located at the opposite back sides of a cushion in the seat. With reference to
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When the webbing-buckling device 1A can be applied to a four-point seat belt system without a retractor or a six-point seat belt system without a retractor, the assemblies in the four-point seat belt system without the retractor or the six-point seat belt system without the retractor are similar to the assemblies in the four-point seat belt system having the at least one retractor 4 or the six-point seat belt system having the at least one retractor 4. With reference to
The relative position between the webbing-locking member 13 and the first frame portion 112 and the relative position between the webbing-fixing member 22 and the second frame portion 212 are changed by the tensions of the webbings 2A, 2B for locking the webbings 2A, 2B unidirectionally and respectively. One of the webbings 2A is locked between the webbing-locking member 13 and the first frame portion 112. The other one of the webbings 2B is locked between the webbing-fixing member 22 and the second frame portion 212. The webbings 2A, 2B are locked. The webbings 2A, 2B fastened on the occupant are tighter and tighter for restricting the occupant on the seat and increasing the security of the occupant on the seat.
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The structures of the tongue bases 21, 21B, 31B in the first embodiment and the second embodiment are the same. The structures of the webbing-fixing members 22, 22B, 32B in the first embodiment and the second embodiment are the same. Detailed structures of the tongue bases 21B, 31B and the webbing-fixing members 22B, 32B will not be described herein.
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The second embodiment of the webbing-buckling device 1B is applied to the multi-point seat belt system. Assemblies of the two tongue assemblies 20B, 30B and the webbings 2A, 2B are the same as assemblies of the tongue assembly 20A and the webbings 2A, 2B and will not be described herein.
When an occupant sits on the seat, the occupant may want to adjust the height of the webbing-buckling device 1B. The height adjustments of the webbing-buckling device 1A, 1B in the first embodiment and the second embodiment are the same and will not be described herein.
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When the webbing-buckling device 1A is applied to the multi-point seat belt system on the seat of the vehicle, the webbing-buckling device 1A is selectively connected to the two webbings 2A, 2B of the multi-point seat belt system. When the webbing-buckling device 1A has one buckle assembly 10A and one tongue assembly 20A, the webbing-locking member 13 is slidably inserted into the first frame portion 112 of the buckle base 11. The webbing-fixing member 22 is slidably inserted into the second frame portion 212 of the tongue base 21. One of the two webbings is inserted between the first frame portion 112 of the buckle assembly 10A and the webbing-locking member 13. The other one of the two webbings is inserted between the second frame portion 212 of the tongue assembly 20A and the webbing-fixing member 22. The one buckle assembly 10A and the one tongue assembly 20A are connected between the two webbings 2A, 2B. When the webbing-buckling device 1B has one buckle assembly 10B and two tongue assemblies 20B, 30B, the webbing-fixing members 22B, 32B are respectively inserted through the second frame portions 212B, 312B of the two tongue assemblies 20B, 30B. The two webbings 2A, 2B are respectively inserted through the two tongue assemblies 20B, 30B having the webbing-fixing members 22B, 32B. The one buckle assembly 10B and the two tongue assemblies 20B, 30B are connected between the two webbings 2A, 2B. Therefore, the webbing-buckling device 1B is applied between the two webbings 2A, 2B of the multi-point seat belt system for providing effects on connecting, height adjusting, and locking.
Furthermore, when the webbing-buckling device 1A is combined by the buckle assembly 10A and the tongue assembly 20A, the structure of the webbing-locking member 13 and the structure of the webbing-fixing member 22 are simplified. The first side plate portion 131 and the second side plate portion 132 of the webbing-locking portion 13 are respectively located at the two opposite sides of the first frame portion 112. The first side plate portion 221 and the second side plate portion 222 of the webbing-fixing member 22 are respectively located at the two opposite sides of the second frame portion 212. The webbing-locking member 13 and the webbing-fixing portion 22 are inserted through and are able to slide in the first frame portion 112 in the buckle assembly 10A and the second frame portion 212 in the tongue assembly 20A respectively.
Alternatively, the webbing-buckling device 1B is combined by the buckle assembly 10B and the two tongue assemblies 20B, 30B. The structures of the webbing-fixing members 22B, 32B of the two tongue assemblies 20B, 30B are simplified. The first side plate portion 221B and the second side plate portion 222B of each one of the webbing-fixing members 22B, 32B are respectively located at the two opposite sides of the corresponding second frame portions 212B, 312B. Each one of the webbing-fixing members 22B, 32B is directly inserted through and is able to slide in the corresponding second frame portions 212B, 312B. The structure of the webbing-buckling device is simplified for ease in manufacturing.
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